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P. putida strains appear to be rather unique in displaying such variation and lack of conservation in their AHL QS systems. In this study we report however that a LuxR solo is very well conserved in all P. putida strains we tested. This protein, which we designated PpoR, was shown to be able bind to AHLs, was

not involved in rhizosphere colonization and was shown to be involved in the regulation of several loci. In addition its gene is stringently growth-phase regulated. The presence and sequence similarity of PpoR and its orthologs in all P. putida strains indicates that this protein might play a conserved role associated with the detection and response to bacterial endogenous and/or exogenous signaling compounds. Results and Discussion PpoR, an unpaired LuxR homolog protein is #learn more randurls[1|1|,|CHEM1|]# highly conserved in Pseudomonas

putida The model P. putida KT2440 has not been reported to possess an AHL QS system and its genome sequence does not encode for a LuxI homolog. As we were interested in studying solo QS LuxR homolog proteins in P. putida, the genome sequence of P. putida KT2440 (AE015451) was examined for the presence of such proteins that typically contain an N-terminal AHL binding domain (PFAM 03472) and a C-terminal helix-turn-helix DNA binding domain (PFAM 00196). A single ORF, PP_4647 of 705 bp was identified encoding a protein of 235 amino acids and named as PpoR (Pseudomonas putida orphan regulator). A BLAST search revealed high similarity to several other P. putida strains Selleckchem ARS-1620 whose genome sequences, either complete or partial are available in the NCBI database. PpoR exhibits similarity to orthologs from P. putida F1 (ABQ80629.1; 97%), P. putida GB-1 (ABZ00528.1; 95%), P. putida W619 (ACA71296.1; 84%) as well as to its Acesulfame Potassium homolog from P. entomophila L48 (CAK17431; 75%). We were also interested to know if ppoR is present in two other P. putida strains; namely P. putida WCS358 and P. putida RD8MR3; these two P. putida strains

also possess a complete AHL QS system, hence they are able to produce and respond to AHLs [16, 17]. It was established that they possess a PpoR ortholog as we have cloned and sequenced ppoR from both strains (see Methods; Figure 1). Importantly, all these orthologs along with PpoR of P. putida KT2440 retain those five amino acids in their AHL-binding domain that are invariant in this family of proteins (Figure 1; [3]). These observations indicate that PpoR is highly conserved as it is present in all P. putida strains that we examined, suggesting that it might be part of the core genome of P. putida. On the other hand, approximately only one-third of P. putida strains possess a complete AHL QS; in addition, the type and role of these systems is not conserved [16].

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